Agilent Technologies FS2331 user manual Offline Analysis

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Offline Analysis

Data that is saved on a 167xx analyzer in fast binary format, or 16900 analyzer data saved as a *.ala file, can be imported into the 1680/90/900 environment for analysis. You can do offline analysis on a PC if you have the 1680/90/900 operating system installed on the PC, if you need this software please contact Agilent.

Offline analysis allows a user to be able to analyze a trace offline at a PC so it frees up the analyzer for another person to use the analyzer to capture data.

If you have already used the license that was included with your package on a 1680/90/900 analyzer and would like to have the offline analysis feature on a PC you may buy additional licenses, please contact FuturePlus sales department.

In order to view decoded data offline, after installing the 1680/90/900 operating system on a PC, you must install the FuturePlus software. Please follow the installation instructions for “Setting up a 16900 analyzer”. Once the FuturePlus software has been installed and licensed follow these steps to import the data and view it.

From the desktop, double click on the Agilent logic analyzer icon. When the application comes up there will be a series of questions, answer the first question asking which startup option to use, select Continue Offline. On the analyzer type question, select cancel. When the application comes all the way up you should have a blank screen with a menu bar and tool bar at the top.

For data from a 16900 analyzer, open the .ala file using the File, Open menu selections and browse to the desired .ala file.

For data from a 16700, choose File -> Import from the menu bar, after selecting import select “yes” when it asks if the ystem is ready to import 16700 data.

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Contents DDR Sdram Analysis Probe FS2331 RevisionHow to reach us Product Warranty Signal Connections For Technical Support For Sales and Marketing SupportProduct Warranty Limitation of warrantyExclusive Remedies Probe Cable, Connector Numbering IntroductionDefinitions Logic Analyzer ModulesFS2331 100 pin Connector to Pod Diagram Probe Feature Summary FS2331 Probe DescriptionProbe Components DDR Commands Probe DesignState Clock Generation DDR DataPage Probe Pod Assignment Pod Clock Domain Clock RateSwitch # Default factory Function Position Probe Switch SettingsOn closed Logic Analyzer Signal Threshold Voltage Settings Connecting the Probe to the Logic AnalyzerConnecting Power to the FS2331 Probe Card Requirements for PC2700 Systems Logic Analyzer Card Requirements 16753/4/5/6Recommended Setting up the 167xx Analyzer Setting up the 169xx AnalyzerSoftware Requirements System Software 169xx LicensingTiming Analysis All DDR speeds and supported analyzer cards Card Configurations for State Analysis Probing multiple DDR busses Interleaved memory Connecting to your Target System Chip Select If User is dedicating aChip Select Jumper locations § Isolate the Dedicated DIMM’s pin§ Sleeve the Pin § Wire from the adjacent Dimm slot to the isolated pin Unused PodsOffline Analysis Filtering Loading the Inverse Assembler and Decoding DDR Commands Timing Analysis OperationState Analysis Operation Taking a Trace, Triggering, and Seeing Measurement ResultsInverse Assembler and Decoding DDR Commands Tracing the Serial Presence Detect Signals Using Eye Finder with the FS2331 DDR Probe Using EyeScan with the FS2331 Probe Using the FS2331 DDR Probe with an Interposer FS1024/25 Dimm Signal Loading OptionFS2331 Calibration Page Set Command sample position Page Page Write Burst Data Valid Position Page Page Page Read Burst Data Valid Position Page Page Page Adjust the delay line value to maximize R/W overlap Set the final analyzer sample positionPage General Information Standards supportedSignal Connections J1 Data SamtecSA0 J2 Data and Command CB4Spare J3 Command and Data Buffcmdclk J4 Data DM5DQS14DQS7